Abstract
We have studied the structural, electronic, and magnetic properties of (ZnS) 12 clusters doped with one (monodoped) and two (bidoped) Cr atoms in terms of a first-principles method. Substitutional, exohedral, and endohedral doping are considered. The substitutional isomer is found to be most favorable in energy for monodoped clusters, while the exohedral isomers are found to be most favorable for bidoped clusters. The magnetic coupling between the Cr atoms is mainly governed by the competition between direct Cr–Cr antiferromagnetic (AFM) interaction and the ferromagnetic (FM) interaction between two Cr atoms via S atom due to strong p – d hybridization. Finally, we show that the exohedral bidoped (ZnS) 12 clusters favor the FM state, which has potential applications in nanoscale quantum devices.
Published Version
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